Stack elevator for assembling apparatus



April 21, 1953 c. A. NICHOLS ET AL STACK ELEVATOR FOR ASSEMBLING APPARATUS 6 Sheets-Shet 1 Original Filed May 51, 1946 INVENTORS April 21, 1953 c. A. NICHOLS ETAL STACK ELEVATOR FOR ASSEMBLING APPARATUS 6 Sheets-Sheet 2 Original Filed May 31, 1946 INVENTORS WM JMJ ATTORNEYS April 21, 1953 c. A. NICHOLS ET AL 2,635,876

STACK ELEVATOR FOR ASSEMBLING APPARATUS Original Filed May 31, 1946 6 Sheets-Sheet 3 7," 5 fluid WM 2%??? J 025% zm v M y fl ATTORNEY- April 21, 1953 c. A. NICHOLS ET AL 2,635,876

STACK ELEVATOR FOR ASSEMBLING APPARATUS Original Filed May 31, 1946 6 Sheets-Sheet 5 mm y; ,1 I A //.5

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/22 ill ATTORNEY! April 21, 1953' c. A. NICHOLS ET AL STACK ELEVATOR FOR ASSEMBLING APPARATUS 6 Sheets-Sheet 6 Original Filed May 31, 1946 I04 J I 751% Patented Apr. 21,1953

UNITED STATES PATENT OFFICE STACK ELEVATOR FOR ASSEMBLING APPARATUS ration of Delaware Original application May 31, 1946, Serial No. 673,574. Divided and this application August 28, 1948, Serial No. 46,654

This invention relates to machinery for stacking a plurality of different flat parts in predetermined sequence. The machine disclosed herein is particularly adapted for stacking plates and separators for storage batteries.

This application is a division of application Serial No. 673,574, filed May 31, 1946, now Patent No. 2,568,248, granted September 18, 1951. An object of the invention disclosed in said application is to provide a machine comprising a conveyor having a plurality of holders, each for receiving the required number of parts, a plurality of magazines, each receiving a pile of parts to be stacked, the number of magazines equalling the total number of parts to be stacked in each holder of the conveyor, and means operating in timed relation with the conveyor for transferring the parts, one at a time, from the magazines to the holders while the conveyor continues its movement.

More particularly, it is an object to provide a transfer mechanism associated with each magazine and having vacuum cups which are lowered upon the uppermost part of each magazine stack and which become attached to the uppermost part by suction applied to the cups, the cups being lifted with a part attached thereto and then shifted laterally into vertical alignment with a conveyor holder, the vacuum then being broken so that the part descends from the cups to the holder. In connection with the foregoing it is a further object to provide for gradually lowering the holders as the conveyor moves so that the distances which the parts descend from the vacuum cups will be substantially the same.

An object of the invention claimed in this application is to provide each magazine with means for automatically lifting its stack of parts so that the uppermost part remaining in the stack will be positioned for engagement by the suction cups when they descend upon it. This object is accomplished by the provision of a vertically movable platform actuated upwardly by mechanism having step-by-step motion and operated in timed relation with the conveyor.

A further object is to provide for reloading each magazine before all of the parts therein have been transferred to conveyor holders. This object is accomplished by providing for the descent of the platform while leaving within the reach of the vacuum cups a plurality of parts to be engaged thereby while additional parts are being placed upon the platform. Manually operable means are provided for elevating the platform so that the uppermost one of the reloaded parts engages or is in close proximity to the lowermost 7 Claims. (Cl. 271-62) 2 part held in reserve during the reloading operation.

A further object is to provide a machine of the character described, which is adapted for stacking different numbers of parts in the holders of the conveyor. In this connection, it is an object to provide for the construction of each magazine and its associated transfer mechanism as a unitary structure. To the conveyor frame there are secured a number of these units equalling the number of parts to be stacked in each conveyor holder. In this connection, it is an object to provide a magazine and transfer unit of such construction that any one of the units can be removed from the machine without disturbing any of the other units.

Further objects and advantages of the present invention will be apparent from the following description, reference being had to the accompanying drawings, wherein preferred embodiments of the present invention are clearly shown.

In the drawings:

Fig. 1 is a sectional view of a machine equipped with magazines and transfer mechanisms which are shown in side elevation.

Fig. 2 is a view in the direction of arrow 2 of Fig. 1 showing a front elevation of one of the magazines.

Figs. 3 and 4 are, respectively, front and side elevations of the upper portions of one of the magazine-transfer units. That portion of Fig. 3 in section is on line 3-3 of Fig. 8.

Figs. 5 and 6 are, respectively, front and side elevations of the lower portion of a magazinetransfer unit.

Fig. '7 is a view on the line 1-1 of Fig. 6.

Fig. 8 is a fragmentary, sectional view on line 8-8 of Fig. 3.

Fig. 9 is a sectional view on line 9-9 of Fig. 8.

Fig. 10 is a sectional view on line Ill-40 of Fig. 9.

Fig. 11 is a sectional view on line llll of Fig. 9.

Fig. 12 is a sectional view on line l2-I2 of Fig. 8.

Fig. 13 is a vertical, longitudinal sectional view of a magazine unit provided with a modified form of control for the parts elevating platform.

Fig. 14 is a view in the direction of arrow ll of Fig. 13.

Figs. 15 and 16 are fragmentary, front and side views, respectively, of a magazine when adapted for receiving battery plates, the magazine shown in Figs. 3, 4, 8, 9, 10 and 11 being adapted for re ceiving battery plate separators.

Fig. 17 is a fragmentary, sectional view on line l'l l'l of Fig. 16.

Fig. 18 is a fragmentary View in the direction of arrow I8 of Fig. 17.

Fig. 19 is a sectional view on line I 9-49 of Fig. 8. V

Fig. 20 is a view of a sprocket wheel and coupling chain, looking in the direction of arrow 20 of Fig. 19.

Fig. 21 is an enlargement of a sprocket coupling chain shown in Fig. 26, that part of Fig. 21 which is in section is on line 2 I-2I of Fig, 22.

Fig. 22 is a view in the direction of arrow 22 of Fig. 21 and shows a detachable link of the chain coupling.

Fig. 23 is a fragmentary,'sectional view showing attachment of adjacent juxtaposed sprockets through the chain band.

The conveyor The supporting structure of the conveyor comprises chiefly a front frame til and a rea frame 59 (Fig. 1). An electric motor drives a shaft 51 connected. by suitable gearing with a plurality of shafts each connected with two hubs 66 of sprockets 6i and which engageconveyor chains 69 and it respectively, which are attached to a plurality of equidistant workholders l which receive the plates and separators transferred from magazines by a transfer mechanism which drops them upon the workholders when the workholders are located so as to receive them. The spacing of the workholders is the same as the spacing of the magazines and transfer mechanisms. As the workholders pass underthetransfer mechanisms each receives the same number of plates and separators equal in number to the requirements of one cell of astorage battery. .After the workholders pass from the end of the line of magazines and-transfe mechanisms, they are unloaded and they pass empty belowthe sprockets and then up to the beginning of theline.

Magazine-transfer unit The frame of the magazine-transfer unit Iilt comprises. as shown in Figs, 1, 3 and 4, a pair of horizontally extending side plates .Ilii and IE2 attached by screws its to a pair of vertically extending side plates Hi3 and its, respectively. As shown in Fig. l, the side plates 5% and H32 are mounted upon the conveyor side frame such as sections 58 and for example. The vertical side plates its and ltd are attached to a back plate its; which is secured to the front-side frame of the conveyor, such as the section it of Fig.1; Screws It? secure plates and IM to the back plate let. The plates 283 and tilt support a pair of plates its and i Io, respectively (Fig. 3), which support aseries of rollers ii I upon which a stack .of parts may be placed preparatory to movement thereof upon the rollers i i 3 of magazine platform II2 (Fig. 13). Rollers H3 are journaled in bearings provided by plate I I265 attached to platform H2 which as shown in Fig. 19 is supported by plates I89 and lie when the platform is in loadinggposition. The platform H2 is movable vertically in the channel-space enclosed between plates I533, its and Hit, from a lower level in which the rollers I 53 are on'the level of the rollers i I i to an upper level at which the parts (storage battery plates or separators) are supported for engagement by vacuum cups of the transfer mechanism to be described. In order to provide for upward movement of the platform i l2, there is supported a rod IIAi guided by a bracket H5 which is supside plates I93, Figs. 3 and 5.

ported between the plates I93 and I64 and guided also by hearing IIt which receives a rod II"! attached to the rod II 4. Bearing H5 is mounted in a bracket H8 attached to the plates 193 and IE4. The rod IIl-is cylindrical. The rod H4, as shown in Fig. 12, is rectangular and received by the notch in the bracket I I5. Hence, turning of therod I I4 is prevented.

Rod I I4 is lifted by a mechanism having a stepby-step motion. For this purpose, the rod IIA carries a ratchet bar I29 engaged by an elevating pawl I2! and a retaining pawl I22. These pawls are urged by springs I23 and 425 against the ratchet bar 26. Pawl I2I (Fig. 19) is supported by an eccentric I25 provided by a sleeve I26attached by pinl2l to a shaft I28 to which a key I29 secures a sprocket I30 whose hub is journaled in a bearing I3! supported by plate It? and plate I59. Side plate I94 and plate III] support a bearing I within which is journaled thehub of a sprocket 536 attached by key I31 to shaft l28. The pawl iii is retained upon its eccentric I25 by a spacing sleeve I58 located between the hub of sprocket I36 and the-rightside of the eccentric 525. 'When the shaft I28 is rotated, the pawl 2I is lifted a distance slightly in excess of the spacing of the teeth of the ratchet oar I29 so that the retaining pawl i222 may move under a tooth of the ratchet barand retain the bar while the pawl vIZI descendsin order to pick up the next succeeding ratchet tooth. By means to be described, the shaft i223 is continuously r0.- tated. Retaining pawl 522 is mounted ontheeccentricportion 19 of a shaft I il supported by brackets I42 attached to a bar I43 supported between the plates Ifi3 and I94. The shaft I dlhas a square end portion I44 for receiving a wrench by which the shaft Isl may be turned in order to adjust the location of the retaining pawl I22. When the pawl I22 has been located properly, the shaft MI is locked in the desired position of adjustment by a set screw 545.

By virtue of the reciprocating motion of the pawl I21, the platform I I2 is caused to move upwardly until a predetermined elevation is reached when the pawls I2I and I22 are automatically retracted and the platform I I2 gravitates to loading position shown inFig. 2. The retraction of the pawls, by causing them to move counterclockwise (Fig. '8) about their'supports, is effected by "an electromagnet or solenoid I supported be tween the plates I09 and I I B and having an armature I5I connected by a link I5Ia with two yoke plates I52 which are provided with slots I53 (Fig. 8) each receiving a pin I54 with which a spring I23 or I24 is connected. The slots I53 permit counterclockwise movement of the ratchets I 2| and I22 during their normal function. When the armature l5! moves right in Fig. ,1- or left in Fig. 8,-the yoke plates I52 move the pins I54 away from the ratchet bar I20 so that the platform H2 is free to gravitate. The solenoid is controlled by an electric switch I55 mounted on When platform I I2 is moved upwardly a certain distance, an adjustable screw I 56 (Fig. 4) mounted on a bracket I57 attached to bar It engages a stud I58 carried by the operating arm I56 of the switch I55 and causes the arm to move counterclockwise as.

viewed in Figs. 3 and 5 to connect the solenoid I50 with a current source, not shown. The pawls I 2I and I22 are retracted from the ratchet bar I20 so that the platform H2 is free to descend. Its descent is cushioned by the engagement of a piston I60 (Fig. 6) on rd1I I'Iwith a cylinder I6I mounted on bracket I I9.

The return of the platform I I2 to loadingposition effects automatically the opening of the Switch I55 sothat the pawls I2I and I22 are returned by the springs I23 and I24 to operating position. For:this purpose, thestud I50 of the switch leverl 59 is connected with atrod I92 whose lower end passes through ahole in a lug I5'Ia of bracket I51. The lower end of rod I52 isthread ed to receive nuts I63 which are so adjusted that the descent. of the bracket 151 causes its lug 151a toiengage the upper nut I63 to move the rod I52 down and the-arm I59 clockwiseinto-position for opening the switch I55.

Immediately following'the descent of the platform II2,the operatormoves a stack of parts (which may be alignedby. a plate I09acextending above plate I09, Figs. .3 and 8) fromzthe rollers III upon therollers ;I I9 carried bytheplatform II2. It is then necessary to move the platform to astarting position so that the uppermost part of the stack of parts will be in close proximity to the lowermost :part of 'a group of parts'being re- .tained in the upper end of the magazine by means tobe described. To effect this, the operator depresses a pedal lev-er I65 pivoted at I66 on a bracket I61 attached to a member of the front frame of the conveyor. Motion is transmitted by a chain I68 attachedto the lever I65 to a wheel l69.fixed to a shaft I10 supported by the bracket I IS. The shaft I10 is rotated counterclockwise in Fig. 1 or clockwise in Fig. '6 to cause the cam I;'II to engage a roller-I12 pivotallyfs-upported by bracket I51 and thus to lift the bracket I5'Iand the rod II4 and the platform I I2 to the starting position. The pawl I22 will retain platform II2 approximately at position into which it is elevated by the operator. Then the operator releases the pedal I65 and the shaft IIIIand parts carried thereby are returned to their original position by counterweight II3 connected with a rod I14 attached to the shaft I10. Thus the lever I65 is returned to. its original position. The upward feeding of the magazine platform II2 from starting position continues by virtue of the reciprocation of the pawl I2I which is effected by the rotatingshaft I28.

At the instant the platform II2 isreleased and descends to its loading position, the top edges of the rollers I I3 will have been elevated slightly above a level represented by dot-dash line I80, Fig. 8, which represents the elevation of the underside of the lowermost stack of parts remaining inthe magazine. The level of the upper surface ofthe uppermost part isrepresented by line I8 I. Therefore the reserve stack of parts is located between the levels I90 and NH. Thereserve stack is retained by pawls which moveinto retaining position at the beginning of the descent of the platform II2 when released. If the magazine 15 to contain storage battery plates, it is provided with pawls I82 (Fig. .15') which move into position for engagement with the lowersurface of the lowermost plate in the reserve stack. Pawls I92 are located in recesses I03 provided by the side plates I03 and I04. Each is pivoted upon a rod I84 and is urged into retaining position by plunger I85 actuated by a spring I85 (Fig. 17). Counterclockwise movement of the pawl I82 is limited by a stop plate I8! engaging a shoulder I88 of the pawl. Platesltfia attached to the side plates I03 andI04 by screws I86b (Fig. 15),, support the springs I96 and plungers I85. Rods I84 are confined in grooves provided by; plates IOI and I03v on theleft (Fig. 15) and provided by plates I02-and I04 on the right. If the magazine is "to contain storage battery separators, the means for retaining thereserve'stack is effected by .a'se't ofapawls I82 (Fig. 9) like pawls I82 of Fig. '17 supported by. the back plate I06 and by a setof pawls I supported by rod I9I:carried'by abar I92which is attached to side plates IOI and I02. The pawls I90are urged clockwise in Fig. 8 by plungers I93actuatedby springs I94. Clockwise movement of each pawl I90 is limited by a bar I 95.received by a notch I96 in the pawl. Bar I is attachedtobarIBZ. Separators are urged toward'back plate I06 by spring fingers I91 attached by screws I98 to bar I92 (shown in Fig. 10).

Transfer mechanism The transfer mechanism, as shown in Figs. 1, 2, 3, 4 and 8, comprises a plate or carriage 2100 (Fig. 8) which is reciprocated horizontally by mechanismto be described. For this horizontal movement, it is guided and supported by guideplates 20I (Fig. 1) having grooves and attached to sides-plates IOI and I02. Plate 200 provides a tubular bearing 202 (Fig. 8) receiving a rod 293 supporting a plate 204 carrying a plurality of vacuum Cups 205 connected by suitably passages with a pipe 206 extending from the plate 204 and slidable through an opening in the plate 200. Thepipe 206 is attached by a hose or flexible tube to a vacuum controlling valve to be described. The'rod 203carries a shaft 201 which extends horizontally and which-supportsrollcrs 208 for engaging cam plates 209 and rollers M0 for engaging rails 2 I I. The rails 2II aresupported by theguide plates 20I. Cam plates 209 are attached by yoke 2I2 to rods 2'I3 which pass throughholes 2I4 in plate 200 so that the cam plates 209 maybe guided for horizontal. movement'relative to the plate 200. Rods 2 I3 are connected with a yoke 2I5 which i pivotal'ly connected by'a pin 2I6 with a link 2II connected with a reciprocatin mechanism to be described. Guidance of the plates 209 for horizontal movement relative to the plate 290 is effected also by the engagement of a pad 220 (Figs. land 4) of plate 200 with roller 2-2I pivotally supported by the plates 299. The spacing of the plates 209 is determined by notches 2I2a provided by the yoke 2|.2 for the receptionof theplates and also by .a spacer stud 223 joining the plates. As the rods {2I3 move toward the front of the machine (right in Fig. '1 and left in Fig. 8), the plate 200 tends to move with the rods 2I3 due to the compression of the air being trapped within-the holes 2I4 inplate200. Movement of plate 200 toward the left is arrested by engagement with stops 225 fastenedto the ends of the side plates I0! and I02 and guide-bars 29!. As movement of the rods 2 I3 centinuesthe rollers 2I0 leave the rails 2I I and rollers 299 engage the cam plates 209. As plates 209 move left, the rollers 208 will descend along the plates 209; and the Vacuum cups 205, which are suspended thereby, will descend to the level indicated by line 205a in Fig. 21 or towhatever higher level is attained by the uppermost surface of the parts in the upper end of the magazine. The pipe 206 being connected with vacuum, the uppermostpart inthe maga zine .Wlll adhere .to the cups 205 as the cups ascend. Movement of the rods 2I3 toward the right causes cams 209 to move relative to the rollers .208, thereby lifting the rollers209 while rollers 2I0 ride along the verticalend edges of v .cups.

the rails ZI I. By the time that the lost motion between the yoke H2 and the left end of the plate 282 has been taken up, the rollers 2% will rest upon the horizontal surfaces 2353a. (Fig. 4) of the cam plates 29%. Further, right movement of the rods causes the plates 2% and the plate 2M1 to move together. At the start of this movement, the rollers 2H9 ride over the rounded corners of the rails 2H and then upon the rails. As the transfer mechanism travels toward the conveyor, the rollers 2H3 ride along the rails 21 thereby supporting the part adhering to the vacuum cups above the upper sides of the conveyor side frames. By the time the axes of the rollers 2|!) have been brought into alignment with the vertical center line of the conveyor so that the part transferred may gravitate upon the platform SI of the conveyor receptacle 15, a valve will have been actuated to relieve the vacuum upon the cup.

The vacuum controlling valve will now be described, with reference to Fig. 1. The valve unit 230 comprises a frame 23! mounted on one of the plates 265. The valve has a movable sleeve 24! which in the position shown causes a pipe 239 connected with a vacuum manifold to be connected with a pipe 2% connected with vacuum The vacuum manifold 2% is connected with a vacuum pump and has a capacity such that it can supply needed vacuum t the cups in as many sets of transfer units as are required for the stacking operations. When the valve 2%! is in the position shown in Fig. l, the vacuum cups are subjected to vacuum so that the uppermost part of the stack in the magazine will be transferred first upwardly and then horizontally toward the conveyor. As the part approaches the conveyor, the lug 253 attached to carriage plate 243i! rides under the rod 252 and strikes an arm 2%, thereby causing it to move left in Fig. l. 1

By the time the rod 2G3 has been positioned in vertical alignment with the center line of the conveyor, the valve 241 will have been moved into a position such that the vacuum is out off and the cups are vented, thereby permitting the part to gravitate upon the workholder 15. During movement of the plate 2% toward the magazine, the

lug 253 engages the rod 252 and returns the valve 2M to the position shown in Fig. 1 so that vacuum is again applied to the cups.

Magazine-transfer unit operating mechanism Referring to Fig. 1, shaft 51 drives a gear 26! which meshes with a gear 26I connected with a shaft 262 supported by a bracket 263 fastened to rear frame 59. Shaft 262 drives a gear 254 meshing with a gear 2e5 which drives a shaft 265 also supported by the bracket 263. Shaft 26$ drives a bevel gear 261 meshing with bevel gear 268 connected with a shaft 269 supported by bearin s 21B, 211 and 212 and driving a bevel gear 213 which meshes with a bevel gear 214 (Fig. 12) which drives a shaft 215. Shaft 215 is supported by a bracket 215 attached to a front frame 40 and drives a sprocket shaped like sprocket 530 (Fig. 19). Shaft 215 is in alignment with all of the shafts I28 of all of the magazine-transfer units it. The shaft 215 is connected with the shaft I25 immediately to the right thereof; and each shaft I28 is connected with its neighbor in a similar manner. For example, the adjacent sprockets its are, in effect, two half sprockets which, when juxtaposed, form a complete sprocket adapted to receive a sprocket chain band 289 such as shown in Figs. 20 and 21. This band 286 is wrapped around the abutting half sprocket members and the ends 286a and 2802) are joined by a detachable link 28! fixed to pins 282 passing through spacing sleeves 283 and retained by a resilient retainer 234, the arms of which can snap into grooves 235 provided by the pins 232. The shaft 215 and the shafts I28 of magazine units provide in effect one continuous shaft when they are coupled together by the sprocket chain bands which engage the half sprocket members. Removal of any one of the magazine-transfer units without disturbing any other unit can be effected with great facility since the shaft section I28 of the unit to be removed can easily be uncoupled from its neighboring shafts simply by uncoupling and removing the sprocket chain bands. By removing the screws which fasten the magazine-transfer unit to the conveyor frame and the bracket I61 at the front of the conveyor frame, the unit may be easily removed. Obviously the hose 239 will be removed and the transfer operating link 2E1 must'be uncoupled from its operating mechanism.

The mechanism for reciprocating the links 2I1 will now be described. The rear side frame 50 of the conveyor supports a shaft 29 I, carrying a plurality of arms 292 each connected by a pin 293 with a link M1. The link 211 may-include two end sections and an intermediate turn-buckle 211a by which the length of the link may be adjusted in order that the position of the transfer mechanism relative to the frame may be adjusted to the proper position in which the vacuum cu s will be brought into proper relation to the magazine at one end of the oscillation of the lever 292 and with the conveyor workholders at the other end of the oscillation of the lever 2%. The shaft 233! carries an arm 294 connected by a pin 295 with a link 2918 connected with a crank pin 291 fastened to gear 264.

The control of the pawls i2i and i222 of each magazine unit can be effected by means other than a solenoid i511. Fig. 13 shows an alternative construction. To plates I03 and I I0 corresponding to plates E09 and Ill] of Fig. 19, there are secured plates 5% and 3M respectively which support a rod 382 secured by a set screw 303. Rod 302 pivotally supports a plate 364 having a notch 3:75 receiving a link 306 connected by pin 391 with the plate 3% and connected by pin 308 with the yoke plates I52. A spring 369 connecting plates 3M and iflfi urges the plate 384 counterclockwise toward a latch lever cm which engages a wear piece 3| I atached to plate 394 by a screw 3I2. Lever 3i [3 is pivoted on a rod 3I3 supported by plates 39B and 30!. Plate 38 1 is connected by screw 3M and spacer 315 with a lever SIB attached to a hub 311 journaled on' rod 352.

When the platform I I2 reaches the upper level of its travel, a screw 3E8 attached to bracket I51 engages latch love:- 350 to cause it to separate from wear piece 3! I thereby permitting spring 399 to move the plate 3% and the lever 3I6 counterclockwise to effect left movement of link 386, yokes 152 and pawls I26 and I 2I whereupon the platform H 2 gravitates to the lowest level just as it did when solenoid I58 was energized. The operator moves a stack of parts from rollers Hi to rollers M3 and moves lever 3H5 clockwise to permit engagement of the pawls B28 and IZI with the ratchet bar :25? so that upward feeding of the platform H2 may be resumed. As the lever file is moved clockwise, the latch lever 31%) gravitates into engagement with wear piece 31 I; and

lever 3 I 6 will thenbe retained in pawl-to-ratchet engaging position.

In the modification shown in Figs; 13' and 14, thereturn of thepawls to ratchet-engaging position is effected manually instead'ofautomatically as in the form first disclosed. The omission of the feature of automatic pawl-reengagement is offset by simplification of construction and reduction of cost and also by saving in the space occupied by the solenoids, thereby making possibleth location of a dustcollector duct 320 under the rollers Ill upon which there are located the parts from which loose particles and dust may be removed by suction from the duct.

While the embodiments of the present invention as herein disclosed, constitute preferred forms, it is to be understood that other forms might be adopted, all coming within the scope of the claims which follow.

What is claimed is as follows:

1. A magazine for feeding flat parts toa transfer mechanism comprising a platform on which a stack of parts is placed, means for supporting the platform in a loading position, means for elevating the platform to a starting position, a stepby-step mechanism for moving the platform upwardly from starting position to a predetermined position of elevation, electrically operated means effective only when said platform attains said predetermined position of elevation for magnetically disconnecting the step-by-step mechanism so that the said mechanism is disassociated from the platform whereby the platform will gravitate quickly to loading position of the electrically operated means being rendered effective by a closure of a circuit controlled by the position of said step-by-step mechanism and means associated with the platform and including a dashpot for cushioning the descent of the platform upon the support only adjacent its lower limit of travel.

2. A magazine for feeding flat parts to a transfer mechanism comprising a platform on which a stack of parts is placed, means for supporting the platform in a loading position, means for elevating the platform to a starting position, a step-by-step mechanism for moving the platform upwardly from starting position to a predetermined position of elevation, means rendered effective by the closure of a circuit closed only when the platform attains said predetermined position of elevation for magnetically disconnecting the mechanism so that the platform will gravitate to loading position, a rod connected with the platform, a dashpot piston attached to the rod and a fixed dashpot cylinder for receiving the piston near the end of its downward movement only to cushion the descent of the platform upon the support.

3. A magazine for feeding flat parts to a transfer mechanism comprising a platform on which a stack of parts is placed, means for supporting the platform in a loading position, means for elevating the platform to a starting position, a vertically disposed ratchet bar connected with the platform, two independently operated pawls for engaging the ratchet, one a ratchet lifting pawl and the other a ratchet retaining pawl, two shafts each having an eccentric portion received by a hole in a pawl, means for connecting the shaft of the ratchet lifting pawl with a power source, means for fixing the other shaft in the desired position of angular adjustment to obtain the required spacing of the pawls, spring means for urging the pawls against the ratchet and electrically operated means including an actuator associated with each pawl for retracting both pawls simultaneously from the ratchet so that the platform will gravitate to the loadin position.

4. A magazine for feeding flat parts to a transfer mechanism comprising a platform on which a stack of parts is placed, means for supporting the platform in a loading position, means for elevating the platform to a starting position, a vertically disposed ratchet bar connected with the platform, two independently operated pawls for engaging the ratchet, one a ratchet lifting pawl and the other a ratohetretaining pawl, a shaft having an eccentric portion received by a hole in the ratchet lifting pawl, means pivotally supporting the ratchet retaining pawl, springs urging the pawls against the ratchet, means for connecting the shaft with a power source, a yoke operatively connected to each pawl and means responsive to movement of the platform to a predetermined elevation for effecting movement of the yoke to cause simultaneous retraction of the pawls from the ratchet so that the platform will be free to gravitate to loading position.

5. A magazine for feeding flat parts to a transfer mechanism comprising a platform on which a stack of parts is placed, means for supporting the platform in a loading position, means for elevating the platform to a starting position, a vertically disposed ratchet bar connected with the platform, two independently operated pawls for engaging the ratchet, one a ratchet bar lifting pawl and the other a ratchet retaining pawl, a shaft having an eccentric ortion received by a hole in the ratchet lifting pawl, means pivotally supporting the ratchet retaining pawl, springs urging the pawls against the ratchet, means for connecting the shaft with a power source, a yoke operatively connected with each of said pawls, means responsive to movement of'the platform to a predetermined elevation for effecting movement of the yoke to cause simultaneous retraction of the pawls from the ratchet so that the platform will be free to gravitate to loading position, said last named means comprising a spring and a lever connected with the spring and the yoke, a retractable latch for holding the lever against the action of said lastmentioned spring in a position to permit the functioning of the pawls, and means responsive to movement of the platform to a predetermined position for retracting the latch.

6. A magazine for feeding flat parts to a transfer mechanism comprising a platform on which a stack of parts is placed, means for supporting the platform in a loading position, means for elevating the platform to a starting position, a vertically disposed ratchet bar connected with the platform, two independently operated pawls for engaging the ratchet, one a ratchet lifting pawl and the other a ratchet retaining pawl, a shaft having an eccentric portion received by a hole in the ratchet lifting pawl, means pivotally supporting the ratchet retaining pawl, springs urging the pawls against the ratchet, means for connecting the shaft with a power source, a yoke operatively connected with each of said pawls, an electromagnet mechanically connected to said yoke for moving the yoke for causing simultaneous retraction of the pawls from the ratchet so that the platform will be free to gravitate to loading position, a switch in circuit with the electromagnet and a current source and means responsive to the attainment of a predetermined elevation of the platform for causing the switch to cause energization of the electromagnet.

7. A magazine unit for feeding fiat parts to a transfer mechanism comprising parallel, vertical side members and a vertical back member connecting the side members thereby providing a vertically extending channel for guiding a stack of parts, one of said members being utilized to attach the unit to a parts assembling machine having a plurality of juxtaposed linearly arranged similar magazine units, a platform movable in the channel, a step-by-step mechanism for elevating the platform and having a horizontal operating shaft supported by the side members, and means for connecting the ends of said shaft with the shafts of other magazine units in alignment therewith, said means each comprising a sprocket attached to the shaft and juxtaposed to a like sprocket of the adjacent magazine unit when assembled with the machine and a chain band for associating said juxtaposed sprockets into a unit and having disconnectible links CHARLES A. NICHOLS. LORA E. POOLE.

DONALD G. MAHON'EY. MARSHALL D. MCSHURLEY.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 952,097 Brown Mar. 15, 1910 1,366,549 Winkley Jan. 25, 1921 1,946,988 Schueler Feb. 13, 1934 2,093,992 Braam Sept. 28, 1937 2,137,381 Blackstone Nov. 22, 1938 2,172,519 Reeder Sept. 12, 1939 2,214,960 Harding Sept. 17, 1940 2,234,094 Sprinkle Mar. 4, 1941 

